mirror of
https://github.com/MarshalX/telegram-crawler.git
synced 2024-12-04 22:15:07 +01:00
aa7133fbde
add support of binary property list.
507 lines
20 KiB
Python
507 lines
20 KiB
Python
"""
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Copyright (c) 2012-2016, CCL Forensics
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All rights reserved.
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Redistribution and use in source and binary forms, with or without
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modification, are permitted provided that the following conditions are met:
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* Redistributions of source code must retain the above copyright
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notice, this list of conditions and the following disclaimer.
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* Redistributions in binary form must reproduce the above copyright
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notice, this list of conditions and the following disclaimer in the
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documentation and/or other materials provided with the distribution.
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* Neither the name of the CCL Forensics nor the
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names of its contributors may be used to endorse or promote products
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derived from this software without specific prior written permission.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
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ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
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WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
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DISCLAIMED. IN NO EVENT SHALL CCL FORENSICS BE LIABLE FOR ANY
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DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
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(INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
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LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
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ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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"""
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import sys
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import os
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import struct
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import datetime
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__version__ = "0.21"
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__description__ = "Converts Apple binary PList files into a native Python data structure"
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__contact__ = "Alex Caithness"
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_object_converter = None
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def set_object_converter(function):
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"""Sets the object converter function to be used when retrieving objects from the bplist.
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default is None (which will return objects in their raw form).
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A built in converter (ccl_bplist.NSKeyedArchiver_common_objects_convertor) which is geared
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toward dealling with common types in NSKeyedArchiver is available which can simplify code greatly
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when dealling with these types of files."""
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if not hasattr(function, "__call__"):
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raise TypeError("function is not a function")
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global _object_converter
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_object_converter = function
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class BplistError(Exception):
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pass
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class BplistUID:
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def __init__(self, value):
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self.value = value
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def __repr__(self):
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return "UID: {0}".format(self.value)
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def __str__(self):
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return self.__repr__()
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def __decode_multibyte_int(b, signed=True):
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if len(b) == 1:
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fmt = ">B" # Always unsigned?
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elif len(b) == 2:
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fmt = ">h"
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elif len(b) == 3:
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if signed:
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return ((b[0] << 16) | struct.unpack(">H", b[1:])[0]) - ((b[0] >> 7) * 2 * 0x800000)
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else:
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return (b[0] << 16) | struct.unpack(">H", b[1:])[0]
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elif len(b) == 4:
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fmt = ">i"
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elif len(b) == 8:
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fmt = ">q"
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elif len(b) == 16:
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# special case for BigIntegers
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high, low = struct.unpack(">QQ", b)
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result = (high << 64) | low
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if high & 0x8000000000000000 and signed:
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result -= 0x100000000000000000000000000000000
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return result
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else:
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raise BplistError("Cannot decode multibyte int of length {0}".format(len(b)))
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if signed and len(b) > 1:
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return struct.unpack(fmt.lower(), b)[0]
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else:
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return struct.unpack(fmt.upper(), b)[0]
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def __decode_float(b, signed=True):
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if len(b) == 4:
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fmt = ">f"
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elif len(b) == 8:
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fmt = ">d"
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else:
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raise BplistError("Cannot decode float of length {0}".format(len(b)))
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if signed:
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return struct.unpack(fmt.lower(), b)[0]
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else:
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return struct.unpack(fmt.upper(), b)[0]
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def __decode_object(f, offset, collection_offset_size, offset_table):
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# Move to offset and read type
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#print("Decoding object at offset {0}".format(offset))
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f.seek(offset)
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# A little hack to keep the script portable between py2.x and py3k
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if sys.version_info[0] < 3:
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type_byte = ord(f.read(1)[0])
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else:
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type_byte = f.read(1)[0]
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#print("Type byte: {0}".format(hex(type_byte)))
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if type_byte == 0x00: # Null 0000 0000
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return None
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elif type_byte == 0x08: # False 0000 1000
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return False
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elif type_byte == 0x09: # True 0000 1001
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return True
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elif type_byte == 0x0F: # Fill 0000 1111
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raise BplistError("Fill type not currently supported at offset {0}".format(f.tell())) # Not sure what to return really...
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elif type_byte & 0xF0 == 0x10: # Int 0001 xxxx
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int_length = 2 ** (type_byte & 0x0F)
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int_bytes = f.read(int_length)
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return __decode_multibyte_int(int_bytes)
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elif type_byte & 0xF0 == 0x20: # Float 0010 nnnn
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float_length = 2 ** (type_byte & 0x0F)
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float_bytes = f.read(float_length)
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return __decode_float(float_bytes)
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elif type_byte & 0xFF == 0x33: # Date 0011 0011
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date_bytes = f.read(8)
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date_value = __decode_float(date_bytes)
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try:
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result = datetime.datetime(2001,1,1) + datetime.timedelta(seconds = date_value)
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except OverflowError:
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result = datetime.datetime.min
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return result
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elif type_byte & 0xF0 == 0x40: # Data 0100 nnnn
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if type_byte & 0x0F != 0x0F:
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# length in 4 lsb
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data_length = type_byte & 0x0F
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else:
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# A little hack to keep the script portable between py2.x and py3k
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if sys.version_info[0] < 3:
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int_type_byte = ord(f.read(1)[0])
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else:
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int_type_byte = f.read(1)[0]
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if int_type_byte & 0xF0 != 0x10:
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raise BplistError("Long Data field definition not followed by int type at offset {0}".format(f.tell()))
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int_length = 2 ** (int_type_byte & 0x0F)
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int_bytes = f.read(int_length)
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data_length = __decode_multibyte_int(int_bytes, False)
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return f.read(data_length)
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elif type_byte & 0xF0 == 0x50: # ASCII 0101 nnnn
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if type_byte & 0x0F != 0x0F:
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# length in 4 lsb
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ascii_length = type_byte & 0x0F
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else:
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# A little hack to keep the script portable between py2.x and py3k
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if sys.version_info[0] < 3:
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int_type_byte = ord(f.read(1)[0])
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else:
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int_type_byte = f.read(1)[0]
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if int_type_byte & 0xF0 != 0x10:
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raise BplistError("Long ASCII field definition not followed by int type at offset {0}".format(f.tell()))
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int_length = 2 ** (int_type_byte & 0x0F)
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int_bytes = f.read(int_length)
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ascii_length = __decode_multibyte_int(int_bytes, False)
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return f.read(ascii_length).decode("ascii")
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elif type_byte & 0xF0 == 0x60: # UTF-16 0110 nnnn
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if type_byte & 0x0F != 0x0F:
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# length in 4 lsb
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utf16_length = (type_byte & 0x0F) * 2 # Length is characters - 16bit width
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else:
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# A little hack to keep the script portable between py2.x and py3k
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if sys.version_info[0] < 3:
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int_type_byte = ord(f.read(1)[0])
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else:
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int_type_byte = f.read(1)[0]
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if int_type_byte & 0xF0 != 0x10:
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raise BplistError("Long UTF-16 field definition not followed by int type at offset {0}".format(f.tell()))
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int_length = 2 ** (int_type_byte & 0x0F)
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int_bytes = f.read(int_length)
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utf16_length = __decode_multibyte_int(int_bytes, False) * 2
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return f.read(utf16_length).decode("utf_16_be")
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elif type_byte & 0xF0 == 0x80: # UID 1000 nnnn
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uid_length = (type_byte & 0x0F) + 1
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uid_bytes = f.read(uid_length)
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return BplistUID(__decode_multibyte_int(uid_bytes, signed=False))
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elif type_byte & 0xF0 == 0xA0: # Array 1010 nnnn
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if type_byte & 0x0F != 0x0F:
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# length in 4 lsb
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array_count = type_byte & 0x0F
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else:
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# A little hack to keep the script portable between py2.x and py3k
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if sys.version_info[0] < 3:
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int_type_byte = ord(f.read(1)[0])
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else:
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int_type_byte = f.read(1)[0]
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if int_type_byte & 0xF0 != 0x10:
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raise BplistError("Long Array field definition not followed by int type at offset {0}".format(f.tell()))
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int_length = 2 ** (int_type_byte & 0x0F)
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int_bytes = f.read(int_length)
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array_count = __decode_multibyte_int(int_bytes, signed=False)
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array_refs = []
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for i in range(array_count):
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array_refs.append(__decode_multibyte_int(f.read(collection_offset_size), False))
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return [__decode_object(f, offset_table[obj_ref], collection_offset_size, offset_table) for obj_ref in array_refs]
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elif type_byte & 0xF0 == 0xC0: # Set 1010 nnnn
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if type_byte & 0x0F != 0x0F:
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# length in 4 lsb
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set_count = type_byte & 0x0F
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else:
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# A little hack to keep the script portable between py2.x and py3k
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if sys.version_info[0] < 3:
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int_type_byte = ord(f.read(1)[0])
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else:
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int_type_byte = f.read(1)[0]
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if int_type_byte & 0xF0 != 0x10:
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raise BplistError("Long Set field definition not followed by int type at offset {0}".format(f.tell()))
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int_length = 2 ** (int_type_byte & 0x0F)
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int_bytes = f.read(int_length)
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set_count = __decode_multibyte_int(int_bytes, signed=False)
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set_refs = []
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for i in range(set_count):
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set_refs.append(__decode_multibyte_int(f.read(collection_offset_size), False))
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return [__decode_object(f, offset_table[obj_ref], collection_offset_size, offset_table) for obj_ref in set_refs]
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elif type_byte & 0xF0 == 0xD0: # Dict 1011 nnnn
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if type_byte & 0x0F != 0x0F:
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# length in 4 lsb
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dict_count = type_byte & 0x0F
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else:
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# A little hack to keep the script portable between py2.x and py3k
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if sys.version_info[0] < 3:
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int_type_byte = ord(f.read(1)[0])
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else:
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int_type_byte = f.read(1)[0]
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#print("Dictionary length int byte: {0}".format(hex(int_type_byte)))
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if int_type_byte & 0xF0 != 0x10:
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raise BplistError("Long Dict field definition not followed by int type at offset {0}".format(f.tell()))
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int_length = 2 ** (int_type_byte & 0x0F)
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int_bytes = f.read(int_length)
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dict_count = __decode_multibyte_int(int_bytes, signed=False)
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key_refs = []
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#print("Dictionary count: {0}".format(dict_count))
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for i in range(dict_count):
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key_refs.append(__decode_multibyte_int(f.read(collection_offset_size), False))
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value_refs = []
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for i in range(dict_count):
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value_refs.append(__decode_multibyte_int(f.read(collection_offset_size), False))
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dict_result = {}
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for i in range(dict_count):
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#print("Key ref: {0}\tVal ref: {1}".format(key_refs[i], value_refs[i]))
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key = __decode_object(f, offset_table[key_refs[i]], collection_offset_size, offset_table)
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val = __decode_object(f, offset_table[value_refs[i]], collection_offset_size, offset_table)
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dict_result[key] = val
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return dict_result
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def load(f):
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"""
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Reads and converts a file-like object containing a binary property list.
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Takes a file-like object (must support reading and seeking) as an argument
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Returns a data structure representing the data in the property list
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"""
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# Check magic number
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if f.read(8) != b"bplist00":
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raise BplistError("Bad file header")
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# Read trailer
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f.seek(-32, os.SEEK_END)
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trailer = f.read(32)
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offset_int_size, collection_offset_size, object_count, top_level_object_index, offest_table_offset = struct.unpack(">6xbbQQQ", trailer)
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# Read offset table
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f.seek(offest_table_offset)
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offset_table = []
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for i in range(object_count):
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offset_table.append(__decode_multibyte_int(f.read(offset_int_size), False))
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return __decode_object(f, offset_table[top_level_object_index], collection_offset_size, offset_table)
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def NSKeyedArchiver_common_objects_convertor(o):
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"""Built in converter function (suitable for submission to set_object_converter()) which automatically
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converts the following common data-types found in NSKeyedArchiver:
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NSDictionary/NSMutableDictionary;
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NSArray/NSMutableArray;
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NSSet/NSMutableSet
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NSString/NSMutableString
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NSDate
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$null strings"""
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# Conversion: NSDictionary
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if is_nsmutabledictionary(o):
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return convert_NSMutableDictionary(o)
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# Conversion: NSArray
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elif is_nsarray(o):
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return convert_NSArray(o)
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elif is_isnsset(o):
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return convert_NSSet(o)
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# Conversion: NSString
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elif is_nsstring(o):
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return convert_NSString(o)
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# Conversion: NSDate
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elif is_nsdate(o):
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return convert_NSDate(o)
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# Conversion: "$null" string
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elif isinstance(o, str) and o == "$null":
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return None
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# Fallback:
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else:
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return o
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def NSKeyedArchiver_convert(o, object_table):
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if isinstance(o, list):
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#return NsKeyedArchiverList(o, object_table)
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result = NsKeyedArchiverList(o, object_table)
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elif isinstance(o, dict):
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#return NsKeyedArchiverDictionary(o, object_table)
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result = NsKeyedArchiverDictionary(o, object_table)
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elif isinstance(o, BplistUID):
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#return NSKeyedArchiver_convert(object_table[o.value], object_table)
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result = NSKeyedArchiver_convert(object_table[o.value], object_table)
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else:
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#return o
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result = o
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if _object_converter:
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return _object_converter(result)
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else:
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return result
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class NsKeyedArchiverDictionary(dict):
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def __init__(self, original_dict, object_table):
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super(NsKeyedArchiverDictionary, self).__init__(original_dict)
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self.object_table = object_table
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def __getitem__(self, index):
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o = super(NsKeyedArchiverDictionary, self).__getitem__(index)
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return NSKeyedArchiver_convert(o, self.object_table)
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def get(self, key, default=None):
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return self[key] if key in self else default
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def values(self):
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for k in self:
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yield self[k]
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def items(self):
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for k in self:
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yield k, self[k]
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class NsKeyedArchiverList(list):
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def __init__(self, original_iterable, object_table):
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super(NsKeyedArchiverList, self).__init__(original_iterable)
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self.object_table = object_table
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def __getitem__(self, index):
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o = super(NsKeyedArchiverList, self).__getitem__(index)
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return NSKeyedArchiver_convert(o, self.object_table)
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def __iter__(self):
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for o in super(NsKeyedArchiverList, self).__iter__():
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yield NSKeyedArchiver_convert(o, self.object_table)
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def deserialise_NsKeyedArchiver(obj, parse_whole_structure=False):
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"""Deserialises an NSKeyedArchiver bplist rebuilding the structure.
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obj should usually be the top-level object returned by the load()
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function."""
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# Check that this is an archiver and version we understand
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if not isinstance(obj, dict):
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raise TypeError("obj must be a dict")
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if "$archiver" not in obj or obj["$archiver"] not in ("NSKeyedArchiver", "NRKeyedArchiver"):
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raise ValueError("obj does not contain an '$archiver' key or the '$archiver' is unrecognised")
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if "$version" not in obj or obj["$version"] != 100000:
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raise ValueError("obj does not contain a '$version' key or the '$version' is unrecognised")
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object_table = obj["$objects"]
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if "root" in obj["$top"] and not parse_whole_structure:
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return NSKeyedArchiver_convert(obj["$top"]["root"], object_table)
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else:
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return NSKeyedArchiver_convert(obj["$top"], object_table)
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# NSMutableDictionary convenience functions
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def is_nsmutabledictionary(obj):
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if not isinstance(obj, dict):
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return False
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if "$class" not in obj.keys():
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return False
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if obj["$class"].get("$classname") not in ("NSMutableDictionary", "NSDictionary"):
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return False
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if "NS.keys" not in obj.keys():
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return False
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if "NS.objects" not in obj.keys():
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return False
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return True
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def convert_NSMutableDictionary(obj):
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"""Converts a NSKeyedArchiver serialised NSMutableDictionary into
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a straight dictionary (rather than two lists as it is serialised
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as)"""
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# The dictionary is serialised as two lists (one for keys and one
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# for values) which obviously removes all convenience afforded by
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# dictionaries. This function converts this structure to an
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# actual dictionary so that values can be accessed by key.
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if not is_nsmutabledictionary(obj):
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raise ValueError("obj does not have the correct structure for a NSDictionary/NSMutableDictionary serialised to a NSKeyedArchiver")
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keys = obj["NS.keys"]
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vals = obj["NS.objects"]
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# sense check the keys and values:
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if not isinstance(keys, list):
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raise TypeError("The 'NS.keys' value is an unexpected type (expected list; actual: {0}".format(type(keys)))
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if not isinstance(vals, list):
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raise TypeError("The 'NS.objects' value is an unexpected type (expected list; actual: {0}".format(type(vals)))
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if len(keys) != len(vals):
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raise ValueError("The length of the 'NS.keys' list ({0}) is not equal to that of the 'NS.objects ({1})".format(len(keys), len(vals)))
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result = {}
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for i,k in enumerate(keys):
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if k in result:
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raise ValueError("The 'NS.keys' list contains duplicate entries")
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result[k] = vals[i]
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return result
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# NSArray convenience functions
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def is_nsarray(obj):
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|
if not isinstance(obj, dict):
|
|
return False
|
|
if "$class" not in obj.keys():
|
|
return False
|
|
if obj["$class"].get("$classname") not in ("NSArray", "NSMutableArray"):
|
|
return False
|
|
if "NS.objects" not in obj.keys():
|
|
return False
|
|
|
|
return True
|
|
|
|
def convert_NSArray(obj):
|
|
if not is_nsarray(obj):
|
|
raise ValueError("obj does not have the correct structure for a NSArray/NSMutableArray serialised to a NSKeyedArchiver")
|
|
|
|
return obj["NS.objects"]
|
|
|
|
# NSSet convenience functions
|
|
def is_isnsset(obj):
|
|
if not isinstance(obj, dict):
|
|
return False
|
|
if "$class" not in obj.keys():
|
|
return False
|
|
if obj["$class"].get("$classname") not in ("NSSet", "NSMutableSet"):
|
|
return False
|
|
if "NS.objects" not in obj.keys():
|
|
return False
|
|
|
|
return True
|
|
|
|
def convert_NSSet(obj):
|
|
if not is_isnsset(obj):
|
|
raise ValueError("obj does not have the correct structure for a NSSet/NSMutableSet serialised to a NSKeyedArchiver")
|
|
|
|
return list(obj["NS.objects"])
|
|
|
|
# NSString convenience functions
|
|
def is_nsstring(obj):
|
|
if not isinstance(obj, dict):
|
|
return False
|
|
if "$class" not in obj.keys():
|
|
return False
|
|
if obj["$class"].get("$classname") not in ("NSString", "NSMutableString"):
|
|
return False
|
|
if "NS.string" not in obj.keys():
|
|
return False
|
|
return True
|
|
|
|
def convert_NSString(obj):
|
|
if not is_nsstring(obj):
|
|
raise ValueError("obj does not have the correct structure for a NSString/NSMutableString serialised to a NSKeyedArchiver")
|
|
|
|
return obj["NS.string"]
|
|
|
|
# NSDate convenience functions
|
|
def is_nsdate(obj):
|
|
if not isinstance(obj, dict):
|
|
return False
|
|
if "$class" not in obj.keys():
|
|
return False
|
|
if obj["$class"].get("$classname") not in ("NSDate"):
|
|
return False
|
|
if "NS.time" not in obj.keys():
|
|
return False
|
|
|
|
return True
|
|
|
|
def convert_NSDate(obj):
|
|
if not is_nsdate(obj):
|
|
raise ValueError("obj does not have the correct structure for a NSDate serialised to a NSKeyedArchiver")
|
|
|
|
return datetime.datetime(2001, 1, 1) + datetime.timedelta(seconds=obj["NS.time"])
|